/other/netcdf_write_matrix/src/nf_test/test_get.m4
m4 | 1073 lines | 1000 code | 43 blank | 30 comment | 0 complexity | 85680063b6e89c8df3c9ef0aa40f5494 MD5 | raw file
Possible License(s): AGPL-1.0
- divert(-1)
- dnl This is m4 source.
- dnl Process using m4 to produce FORTRAN language file.
- changequote([,])
- undefine([index])dnl
- dnl Macros
- dnl Upcase(str)
- dnl
- define([Upcase],[dnl
- translit($1, abcdefghijklmnopqrstuvwxyz, ABCDEFGHIJKLMNOPQRSTUVWXYZ)])
- dnl NFT_ITYPE(type)
- dnl
- define([NFT_ITYPE], [NFT_[]Upcase($1)])
- dnl ARITH(itype, value)
- dnl
- define([ARITH], [ifelse($1, text, ichar($2), $2)])
- dnl DATATYPE(funf_suffix)
- dnl
- define([DATATYPE], [dnl
- ifelse($1, text, character,
- ifelse($1, int1, NF_INT1_T,
- ifelse($1, int2, NF_INT2_T,
- ifelse($1, int, integer,
- ifelse($1, real, real,
- ifelse($1, double, doubleprecision)[]dnl
- )[]dnl
- )[]dnl
- )[]dnl
- )[]dnl
- )[]dnl
- ])
- dnl TEST_NF_GET_VAR1(TYPE)
- dnl
- define([TEST_NF_GET_VAR1],[dnl
- subroutine test_nf_get_var1_$1()
- implicit none
- #include "tests.inc"
- integer ncid
- integer i
- integer j
- integer err
- integer nok
- integer index(MAX_RANK)
- doubleprecision expect
- logical canConvert
- DATATYPE($1) value
- doubleprecision val
- nok = 0
- err = nf_open(testfile, NF_NOWRITE, ncid)
- if (err .ne. 0)
- + call errore('nf_open: ', err)
- do 1, i = 1, NVARS
- canConvert = (var_type(i) .eq. NF_CHAR) .eqv.
- + (NFT_ITYPE($1) .eq. NFT_TEXT)
- do 2, j = 1, var_rank(i)
- index(j) = 1
- 2 continue
- err = nf_get_var1_$1(BAD_ID, i, index, value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_var1_$1(ncid, BAD_VARID,
- + index, value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- do 3, j = 1, var_rank(i)
- index(j) = var_shape(j,i) + 1
- err = nf_get_var1_$1(ncid, i, index, value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_EINVALCOORDS)
- + call errore('bad index: ', err)
- endif
- index(j) = 1
- 3 continue
- do 4, j = 1, var_nels(i)
- err = index2indexes(j, var_rank(i), var_shape(1,i),
- + index)
- if (err .ne. 0)
- + call error('error in index2indexes 1')
- expect = hash4( var_type(i), var_rank(i), index,
- + NFT_ITYPE($1) )
- err = nf_get_var1_$1(ncid, i, index,
- + value)
- if (canConvert) then
- if (inRange3(expect,var_type(i),
- + NFT_ITYPE($1))) then
- if (in_internal_range(NFT_ITYPE($1),
- + expect)) then
- if (err .ne. 0) then
- call errore('nf_get_var: ', err)
- else
- val = ARITH($1, value)
- if (.not. equal(val, expect,
- + var_type(i),
- + NFT_ITYPE($1))) then
- call errord('unexpected: ', val)
- else
- nok = nok + 1
- end if
- end if
- else
- if (err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- end if
- else
- if (err .ne. 0 .and. err .ne. NF_ERANGE)
- + call errore('OK or Range error: ', err)
- end if
- else
- if (err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- end if
- 4 continue
- 1 continue
- err = nf_close(ncid)
- if (err .ne. 0)
- + call errore('nf_close: ', err)
- call print_nok(nok)
- end
- ])
- dnl TEST_NF_GET_VAR(TYPE)
- dnl
- define([TEST_NF_GET_VAR],[dnl
- subroutine test_nf_get_var_$1()
- implicit none
- #include "tests.inc"
- integer ncid
- integer i
- integer j
- integer err
- logical allInExtRange
- logical allInIntRange
- integer nels
- integer nok
- integer index(MAX_RANK)
- doubleprecision expect(MAX_NELS)
- logical canConvert
- DATATYPE($1) value(MAX_NELS)
- doubleprecision val
- nok = 0
- err = nf_open(testfile, NF_NOWRITE, ncid)
- if (err .ne. 0)
- + call errore('nf_open: ', err)
- do 1, i = 1, NVARS
- canConvert = (var_type(i) .eq. NF_CHAR) .eqv.
- + (NFT_ITYPE($1) .eq. NFT_TEXT)
- err = nf_get_var_$1(BAD_ID, i, value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_var_$1(ncid, BAD_VARID, value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- nels = 1
- do 3, j = 1, var_rank(i)
- nels = nels * var_shape(j,i)
- 3 continue
- allInExtRange = .true.
- allInIntRange = .true.
- do 4, j = 1, var_nels(i)
- err = index2indexes(j, var_rank(i), var_shape(1,i),
- + index)
- if (err .ne. 0)
- + call error('error in index2indexes 1')
- expect(j) = hash4( var_type(i), var_rank(i), index,
- + NFT_ITYPE($1) )
- if (inRange3(expect(j),var_type(i), NFT_ITYPE($1))) then
- allInIntRange = allInIntRange .and.
- + in_internal_range(NFT_ITYPE($1), expect(j))
- else
- allInExtRange = .false.
- end if
- 4 continue
- err = nf_get_var_$1(ncid, i, value)
- if (canConvert) then
- if (allInExtRange) then
- if (allInIntRange) then
- if (err .ne. 0)
- + call errore('nf_get_var: ', err)
- else
- if (err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- endif
- else
- if (err .ne. 0 .and. err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- endif
- do 5, j = 1, var_nels(i)
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1)) .and.
- + in_internal_range(NFT_ITYPE($1),
- + expect(j))) then
- val = ARITH($1, value(j))
- if (.not. equal(val, expect(j),
- + var_type(i),
- + NFT_ITYPE($1))) then
- call errord('unexpected: ', val)
- else
- nok = nok + 1
- end if
- endif
- 5 continue
- else
- if (err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- end if
- 1 continue
- err = nf_close(ncid)
- if (err .ne. 0)
- + call errore('nf_close: ', err)
- call print_nok(nok)
- end
- ])
- dnl TEST_NF_GET_VARA(TYPE)
- dnl
- define([TEST_NF_GET_VARA],[dnl
- subroutine test_nf_get_vara_$1()
- implicit none
- #include "tests.inc"
- integer ncid
- integer d
- integer i
- integer j
- integer k
- integer err
- logical allInExtRange
- logical allInIntRange
- integer nels
- integer nslabs
- integer nok
- integer start(MAX_RANK)
- integer edge(MAX_RANK)
- integer index(MAX_RANK)
- integer mid(MAX_RANK)
- logical canConvert
- DATATYPE($1) value(MAX_NELS)
- doubleprecision expect(MAX_NELS)
- doubleprecision val
- integer udshift
- nok = 0
- err = nf_open(testfile, NF_NOWRITE, ncid)
- if (err .ne. 0)
- + call errore('nf_open: ', err)
- do 1, i = 1, NVARS
- canConvert = (var_type(i) .eq. NF_CHAR) .eqv.
- + (NFT_ITYPE($1) .eq. NFT_TEXT)
- if (.not.(var_rank(i) .le. MAX_RANK)) stop 'assert'
- if (.not.(var_nels(i) .le. MAX_NELS)) stop 'assert'
- do 2, j = 1, var_rank(i)
- start(j) = 1
- edge(j) = 1
- 2 continue
- err = nf_get_vara_$1(BAD_ID, i, start,
- + edge, value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_vara_$1(ncid, BAD_VARID, start,
- + edge, value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- do 3, j = 1, var_rank(i)
- start(j) = var_shape(j,i) + 1
- err = nf_get_vara_$1(ncid, i, start,
- + edge, value)
- if (canConvert .and. err .ne. NF_EINVALCOORDS)
- + call errore('bad index: ', err)
- start(j) = 1
- edge(j) = var_shape(j,i) + 1
- err = nf_get_vara_$1(ncid, i, start,
- + edge, value)
- if (canConvert .and. err .ne. NF_EEDGE)
- + call errore('bad edge: ', err)
- edge(j) = 1
- 3 continue
- C /* Check non-scalars for correct error returned even when */
- C /* there is nothing to get (edge(j).eq.0) */
- if (var_rank(i) .gt. 0) then
- do 10, j = 1, var_rank(i)
- edge(j) = 0
- 10 continue
- err = nf_get_vara_$1(BAD_ID, i, start,
- + edge, value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_vara_$1(ncid, BAD_VARID,
- + start, edge, value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- do 11, j = 1, var_rank(i)
- if (var_dimid(j,i) .gt. 1) then !/* skip record dim */
- start(j) = var_shape(j,i) + 1
- err = nf_get_vara_$1(ncid, i,
- + start, edge, value)
- if (canConvert .and. err .ne. NF_EINVALCOORDS)
- + call errore('bad start: ', err)
- start(j) = 1
- endif
- 11 continue
- err = nf_get_vara_$1(ncid, i, start,
- + edge, value)
- if (canConvert) then
- if (err .ne. 0)
- + call error(nf_strerror(err))
- else
- if (err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- endif
- do 12, j = 1, var_rank(i)
- edge(j) = 1
- 12 continue
- endif
- C Choose a random point dividing each dim into 2 parts
- C get 2^rank (nslabs) slabs so defined
- nslabs = 1
- do 4, j = 1, var_rank(i)
- mid(j) = roll( var_shape(j,i) )
- nslabs = nslabs * 2
- 4 continue
- C bits of k determine whether to get lower or upper part of dim
- do 5, k = 1, nslabs
- nels = 1
- do 6, j = 1, var_rank(i)
- if (mod(udshift((k-1), -(j-1)), 2) .eq. 1) then
- start(j) = 1
- edge(j) = mid(j)
- else
- start(j) = 1 + mid(j)
- edge(j) = var_shape(j,i) - mid(j)
- end if
- nels = nels * edge(j)
- 6 continue
- allInIntRange = .true.
- allInExtRange = .true.
- do 7, j = 1, nels
- err = index2indexes(j, var_rank(i), edge, index)
- if (err .ne. 0)
- + call error('error in index2indexes 1')
- do 8, d = 1, var_rank(i)
- index(d) = index(d) + start(d) - 1
- 8 continue
- expect(j) = hash4(var_type(i), var_rank(i), index,
- + NFT_ITYPE($1))
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1))) then
- allInIntRange =
- + allInIntRange .and.
- + in_internal_range(NFT_ITYPE($1), expect(j))
- else
- allInExtRange = .false.
- end if
- 7 continue
- err = nf_get_vara_$1(ncid, i, start,
- + edge, value)
- if (canConvert) then
- if (allInExtRange) then
- if (allInIntRange) then
- if (err .ne. 0)
- + call errore('nf_get_vara_$1:', err)
- else
- if (err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- end if
- else
- if (err .ne. 0 .and. err .ne. NF_ERANGE)
- + call errore('OK or Range error: ', err)
- end if
- do 9, j = 1, nels
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1)) .and.
- + in_internal_range(NFT_ITYPE($1), expect(j)))
- + then
- val = ARITH($1, value(j))
- if (.not.equal(val,expect(j),
- + var_type(i),NFT_ITYPE($1)))
- + then
- call error(
- + 'value read not that expected')
- if (verbose) then
- call error(' ')
- call errori('varid: ', i)
- call errorc('var_name: ',
- + var_name(i))
- call errori('element number: %d ',
- + j)
- call errord('expect: ', expect(j))
- call errord('got: ', val)
- end if
- else
- nok = nok + 1
- end if
- end if
- 9 continue
- else
- if (nels .gt. 0 .and. err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- end if
- 5 continue
- 1 continue
- err = nf_close(ncid)
- if (err .ne. 0)
- + call errorc('nf_close: ', nf_strerror(err))
- call print_nok(nok)
- end
- ])dnl
- dnl TEST_NF_GET_VARS(TYPE)
- dnl
- define([TEST_NF_GET_VARS],dnl
- [dnl
- subroutine test_nf_get_vars_$1()
- implicit none
- #include "tests.inc"
- integer ncid
- integer d
- integer i
- integer j
- integer k
- integer m
- integer err
- logical allInExtRange
- logical allInIntRange
- integer nels
- integer nslabs
- integer nstarts
- integer nok
- integer start(MAX_RANK)
- integer edge(MAX_RANK)
- integer index(MAX_RANK)
- integer index2(MAX_RANK)
- integer mid(MAX_RANK)
- integer count(MAX_RANK)
- integer sstride(MAX_RANK)
- integer stride(MAX_RANK)
- logical canConvert
- DATATYPE($1) value(MAX_NELS)
- doubleprecision expect(MAX_NELS)
- doubleprecision val
- integer udshift
- nok = 0
- err = nf_open(testfile, NF_NOWRITE, ncid)
- if (err .ne. 0)
- + call errore('nf_open: ', err)
- do 1, i = 1, NVARS
- canConvert = (var_type(i) .eq. NF_CHAR) .eqv.
- + (NFT_ITYPE($1) .eq. NFT_TEXT)
- if (.not.(var_rank(i) .le. MAX_RANK)) stop 'assert'
- if (.not.(var_nels(i) .le. MAX_NELS)) stop 'assert'
- do 2, j = 1, var_rank(i)
- start(j) = 1
- edge(j) = 1
- stride(j) = 1
- 2 continue
- err = nf_get_vars_$1(BAD_ID, i, start,
- + edge, stride, value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_vars_$1(ncid, BAD_VARID,
- + start, edge, stride,
- + value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- do 3, j = 1, var_rank(i)
- start(j) = var_shape(j,i) + 1
- err = nf_get_vars_$1(ncid, i, start,
- + edge, stride,
- + value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_EINVALCOORDS)
- + call errore('bad index: ', err)
- endif
- start(j) = 1
- edge(j) = var_shape(j,i) + 1
- err = nf_get_vars_$1(ncid, i, start,
- + edge, stride,
- + value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_EEDGE)
- + call errore('bad edge: ', err)
- endif
- edge(j) = 1
- stride(j) = 0
- err = nf_get_vars_$1(ncid, i, start,
- + edge, stride,
- + value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_ESTRIDE)
- + call errore('bad stride: ', err)
- endif
- stride(j) = 1
- 3 continue
- C Choose a random point dividing each dim into 2 parts
- C get 2^rank (nslabs) slabs so defined
- nslabs = 1
- do 4, j = 1, var_rank(i)
- mid(j) = roll( var_shape(j,i) )
- nslabs = nslabs * 2
- 4 continue
- C bits of k determine whether to get lower or upper part of dim
- C choose random stride from 1 to edge
- do 5, k = 1, nslabs
- nstarts = 1
- do 6, j = 1, var_rank(i)
- if (mod(udshift(k-1, j-1), 2) .eq. 1) then
- start(j) = 1
- edge(j) = mid(j)
- else
- start(j) = 1 + mid(j)
- edge(j) = var_shape(j,i) - mid(j)
- end if
- if (edge(j) .gt. 0) then
- sstride(j) = 1 + roll(edge(j))
- else
- sstride(j) = 1
- end if
- nstarts = nstarts * stride(j)
- 6 continue
- do 7, m = 1, nstarts
- err = index2indexes(m, var_rank(i), sstride,
- + index)
- if (err .ne. 0)
- + call error('error in index2indexes')
- nels = 1
- do 8, j = 1, var_rank(i)
- count(j) = 1 + (edge(j) - index(j)) /
- + stride(j)
- nels = nels * count(j)
- index(j) = index(j) + start(j) - 1
- 8 continue
- C Random choice of forward or backward
- C /* TODO
- C if ( roll(2) ) then
- C for (j = 0 j < var_rank(i) j++) {
- C index(j) += (count(j) - 1) * stride(j)
- C stride(j) = -stride(j)
- C }
- C end if
- C */
- allInIntRange = .true.
- allInExtRange = .true.
- do 9, j = 1, nels
- err = index2indexes(j, var_rank(i), count,
- + index2)
- if (err .ne. 0)
- + call error('error in index2indexes() 1')
- do 10, d = 1, var_rank(i)
- index2(d) = index(d) + (index2(d)-1) *
- + stride(d)
- 10 continue
- expect(j) = hash4(var_type(i), var_rank(i),
- + index2, NFT_ITYPE($1))
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1))) then
- allInIntRange =
- + allInIntRange .and.
- + in_internal_range(NFT_ITYPE($1),
- + expect(j))
- else
- allInExtRange = .false.
- end if
- 9 continue
- err = nf_get_vars_$1(ncid, i, index,
- + count, stride,
- + value)
- if (canConvert) then
- if (allInExtRange) then
- if (allInIntRange) then
- if (err .ne. 0)
- + call error(nf_strerror(err))
- else
- if (err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- end if
- else
- if (err .ne. 0 .and. err .ne. NF_ERANGE)
- + call errore('OK or Range error: ', err)
- end if
- do 11, j = 1, nels
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1)) .and.
- + in_internal_range(NFT_ITYPE($1),
- + expect(j))) then
- val = ARITH($1, value(j))
- if (.not.equal(val, expect(j),
- + var_type(i), NFT_ITYPE($1))) then
- call error(
- + 'value read not that expected')
- if (verbose) then
- call error(' ')
- call errori('varid: ', i)
- call errorc('var_name: ',
- + var_name(i))
- call errori('element number: ',
- + j)
- call errord('expect: ',
- + expect(j))
- call errord('got: ', val)
- end if
- else
- nok = nok + 1
- end if
- end if
- 11 continue
- else
- if (nels .gt. 0 .and. err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- end if
- 7 continue
- 5 continue
- 1 continue
- err = nf_close(ncid)
- if (err .ne. 0)
- + call errore('nf_close: ', err)
- call print_nok(nok)
- end
- ])dnl
- dnl TEST_NF_GET_VARM(TYPE)
- dnl
- define([TEST_NF_GET_VARM],dnl
- [dnl
- subroutine test_nf_get_varm_$1()
- implicit none
- #include "tests.inc"
- integer ncid
- integer d
- integer i
- integer j
- integer k
- integer m
- integer err
- logical allInExtRange
- logical allInIntRange
- integer nels
- integer nslabs
- integer nstarts
- integer nok
- integer start(MAX_RANK)
- integer edge(MAX_RANK)
- integer index(MAX_RANK)
- integer index2(MAX_RANK)
- integer mid(MAX_RANK)
- integer count(MAX_RANK)
- integer sstride(MAX_RANK)
- integer stride(MAX_RANK)
- integer imap(MAX_RANK)
- logical canConvert
- DATATYPE($1) value(MAX_NELS)
- doubleprecision expect(MAX_NELS)
- doubleprecision val
- integer udshift
- nok = 0
- err = nf_open(testfile, NF_NOWRITE, ncid)
- if (err .ne. 0)
- + call errore('nf_open: ', err)
- do 1, i = 1, NVARS
- canConvert = (var_type(i) .eq. NF_CHAR) .eqv.
- + (NFT_ITYPE($1) .eq. NFT_TEXT)
- if (.not.(var_rank(i) .le. MAX_RANK)) stop 'assertion'
- if (.not.(var_nels(i) .le. MAX_NELS)) stop 'assertion'
- do 2, j = 1, var_rank(i)
- start(j) = 1
- edge(j) = 1
- stride(j) = 1
- imap(j) = 1
- 2 continue
- err = nf_get_varm_$1(BAD_ID, i, start, edge,
- + stride, imap,
- + value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_varm_$1(ncid, BAD_VARID, start,
- + edge, stride,
- + imap, value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- do 3, j = 1, var_rank(i)
- start(j) = var_shape(j,i) + 1
- err = nf_get_varm_$1(ncid, i, start,
- + edge, stride,
- + imap, value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_EINVALCOORDS)
- + call errore('bad index: ', err)
- endif
- start(j) = 1
- edge(j) = var_shape(j,i) + 1
- err = nf_get_varm_$1(ncid, i, start,
- + edge, stride,
- + imap, value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_EEDGE)
- + call errore('bad edge: ', err)
- endif
- edge(j) = 1
- stride(j) = 0
- err = nf_get_varm_$1(ncid, i, start,
- + edge, stride,
- + imap, value)
- if (.not. canConvert) then
- if (err .ne. NF_ECHAR)
- + call errore('conversion: ', err)
- else
- if (err .ne. NF_ESTRIDE)
- + call errore('bad stride: ', err)
- endif
- stride(j) = 1
- 3 continue
- C Choose a random point dividing each dim into 2 parts
- C get 2^rank (nslabs) slabs so defined
- nslabs = 1
- do 4, j = 1, var_rank(i)
- mid(j) = roll( var_shape(j,i) )
- nslabs = nslabs * 2
- 4 continue
- C /* bits of k determine whether to get lower or upper part
- C * of dim
- C * choose random stride from 1 to edge */
- do 5, k = 1, nslabs
- nstarts = 1
- do 6, j = 1, var_rank(i)
- if (mod(udshift((k-1), -(j-1)), 2) .ne. 0) then
- start(j) = 1
- edge(j) = mid(j)
- else
- start(j) = 1 + mid(j)
- edge(j) = var_shape(j,i) - mid(j)
- end if
- if (edge(j) .gt. 0) then
- stride(j) = 1+roll(edge(j))
- else
- stride(j) = 1
- end if
- sstride(j) = stride(j)
- nstarts = nstarts * stride(j)
- 6 continue
- do 7, m = 1, nstarts
- err = index2indexes(m, var_rank(i), sstride, index)
- if (err .ne. 0)
- + call error('error in index2indexes')
- nels = 1
- do 8, j = 1, var_rank(i)
- count(j) = 1 + (edge(j) - index(j)) /
- + stride(j)
- nels = nels * count(j)
- index(j) = index(j) + start(j) - 1
- 8 continue
- C Random choice of forward or backward
- C /* TODO
- C if ( roll(2) ) then
- C for (j = 0 j < var_rank(i) j++) {
- C index(j) += (count(j) - 1) * stride(j)
- C stride(j) = -stride(j)
- C }
- C end if
- C */
- if (var_rank(i) .gt. 0) then
- imap(1) = 1
- do 9, j = 2, var_rank(i)
- imap(j) = imap(j-1) * count(j-1)
- 9 continue
- end if
- allInIntRange = .true.
- allInExtRange = .true.
- do 10, j = 1, nels
- err = index2indexes(j, var_rank(i), count,
- + index2)
- if (err .ne. 0)
- + call error('error in index2indexes 1')
- do 11, d = 1, var_rank(i)
- index2(d) = index(d) + (index2(d)-1) *
- + stride(d)
- 11 continue
- expect(j) = hash4(var_type(i), var_rank(i),
- + index2, NFT_ITYPE($1))
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1))) then
- allInIntRange =
- + allInIntRange .and.
- + in_internal_range(NFT_ITYPE($1),
- + expect(j))
- else
- allInExtRange = .false.
- end if
- 10 continue
- err = nf_get_varm_$1(ncid,i,index,count,
- + stride,imap,
- + value)
- if (canConvert) then
- if (allInExtRange) then
- if (allInIntRange) then
- if (err .ne. 0)
- + call error(nf_strerror(err))
- else
- if (err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- end if
- else
- if (err .ne. 0 .and. err .ne. NF_ERANGE)
- + call errore('OK or Range error: ', err)
- end if
- do 12, j = 1, nels
- if (inRange3(expect(j),var_type(i),
- + NFT_ITYPE($1)) .and.
- + in_internal_range(NFT_ITYPE($1),
- + expect(j))) then
- val = ARITH($1, value(j))
- if (.not.equal(val, expect(j),
- + var_type(i),
- + NFT_ITYPE($1))) then
- call error(
- + 'value read not that expected')
- if (verbose) then
- call error(' ')
- call errori('varid: ', i)
- call errorc('var_name: ',
- + var_name(i))
- call errori('element number: ',
- + j)
- call errord('expect: ',
- + expect(j))
- call errord('got: ', val)
- end if
- else
- nok = nok + 1
- end if
- end if
- 12 continue
- else
- if (nels .gt. 0 .and. err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- end if
- 7 continue
- 5 continue
- 1 continue
- err = nf_close(ncid)
- if (err .ne. 0)
- + call errore('nf_close: ', err)
- call print_nok(nok)
- end
- ])dnl
- dnl TEST_NF_GET_ATT(TYPE)
- dnl
- define([TEST_NF_GET_ATT],dnl
- [dnl
- subroutine test_nf_get_att_$1()
- implicit none
- #include "tests.inc"
- integer ncid
- integer i
- integer j
- integer k
- integer err
- integer ndx(1)
- logical allInExtRange
- logical allInIntRange
- logical canConvert
- DATATYPE($1) value(MAX_NELS)
- doubleprecision expect(MAX_NELS)
- integer nok
- doubleprecision val
- nok = 0
- err = nf_open(testfile, NF_NOWRITE, ncid)
- if (err .ne. 0)
- + call errore('nf_open: ', err)
- do 1, i = 0, NVARS
- do 2, j = 1, NATTS(i)
- canConvert = (ATT_TYPE(j,i) .eq. NF_CHAR) .eqv.
- + (NFT_ITYPE($1) .eq. NFT_TEXT)
- err = nf_get_att_$1(BAD_ID, i,
- + ATT_NAME(j,i),
- + value)
- if (err .ne. NF_EBADID)
- + call errore('bad ncid: ', err)
- err = nf_get_att_$1(ncid, BAD_VARID,
- + ATT_NAME(j,i),
- + value)
- if (err .ne. NF_ENOTVAR)
- + call errore('bad var id: ', err)
- err = nf_get_att_$1(ncid, i, 'noSuch', value)
- if (err .ne. NF_ENOTATT)
- + call errore('Bad attribute name: ', err)
- allInIntRange = .true.
- allInExtRange = .true.
- do 3, k = 1, ATT_LEN(j,i)
- ndx(1) = k
- expect(k) = hash4(ATT_TYPE(j,i), -1, ndx,
- + NFT_ITYPE($1))
- if (inRange3(expect(k),ATT_TYPE(j,i),
- + NFT_ITYPE($1))) then
- allInIntRange =
- + allInIntRange .and.
- + in_internal_range(NFT_ITYPE($1), expect(k))
- else
- allInExtRange = .false.
- end if
- 3 continue
- err = nf_get_att_$1(ncid, i, ATT_NAME(j,i), value)
- if (canConvert .or. ATT_LEN(j,i) .eq. 0) then
- if (allInExtRange) then
- if (allInIntRange) then
- if (err .ne. 0)
- + call errore('nf_get_att_$1: ', err)
- else
- if (err .ne. NF_ERANGE)
- + call errore('Range error: ', err)
- end if
- else
- if (err .ne. 0 .and. err .ne. NF_ERANGE)
- + call errore('OK or Range error: ',
- + err)
- end if
- do 4, k = 1, ATT_LEN(j,i)
- if (inRange3(expect(k),ATT_TYPE(j,i),
- + NFT_ITYPE($1)) .and.
- + in_internal_range(NFT_ITYPE($1),
- + expect(k))) then
- val = ARITH($1, value(k))
- if (.not.equal(val, expect(k),
- + ATT_TYPE(j,i),
- + NFT_ITYPE($1)))then
- call error(
- + 'value read not that expected')
- if (verbose) then
- call error(' ')
- call errori('varid: ', i)
- call errorc('att_name: ',
- + ATT_NAME(j,i))
- call errori('element number: ', k)
- call errord('expect: ', expect(k))
- call errord('got: ', val)
- end if
- else
- nok = nok + 1
- end if
- end if
- 4 continue
- else
- if (err .ne. NF_ECHAR)
- + call errore('wrong type: ', err)
- end if
- 2 continue
- 1 continue
- err = nf_close(ncid)
- if (err .ne. 0)
- + call errore('nf_close: ', err)
- call print_nok(nok)
- end
- ])dnl
- divert(0)dnl
- dnl If you see this line, you can ignore the next one.
- C Do not edit this file. It is produced from the corresponding .m4 source */
- C*********************************************************************
- C Copyright 1996, UCAR/Unidata
- C See netcdf/COPYRIGHT file for copying and redistribution conditions.
- C $Id: test_get.m4,v 1.10 1997/06/06 21:54:38 steve Exp $
- C*********************************************************************
- TEST_NF_GET_VAR1(text)
- #ifdef NF_INT1_T
- TEST_NF_GET_VAR1(int1)
- #endif
- #ifdef NF_INT2_T
- TEST_NF_GET_VAR1(int2)
- #endif
- TEST_NF_GET_VAR1(int)
- TEST_NF_GET_VAR1(real)
- TEST_NF_GET_VAR1(double)
- TEST_NF_GET_VAR(text)
- #ifdef NF_INT1_T
- TEST_NF_GET_VAR(int1)
- #endif
- #ifdef NF_INT2_T
- TEST_NF_GET_VAR(int2)
- #endif
- TEST_NF_GET_VAR(int)
- TEST_NF_GET_VAR(real)
- TEST_NF_GET_VAR(double)
- TEST_NF_GET_VARA(text)
- #ifdef NF_INT1_T
- TEST_NF_GET_VARA(int1)
- #endif
- #ifdef NF_INT2_T
- TEST_NF_GET_VARA(int2)
- #endif
- TEST_NF_GET_VARA(int)
- TEST_NF_GET_VARA(real)
- TEST_NF_GET_VARA(double)
- TEST_NF_GET_VARS(text)
- #ifdef NF_INT1_T
- TEST_NF_GET_VARS(int1)
- #endif
- #ifdef NF_INT2_T
- TEST_NF_GET_VARS(int2)
- #endif
- TEST_NF_GET_VARS(int)
- TEST_NF_GET_VARS(real)
- TEST_NF_GET_VARS(double)
- TEST_NF_GET_VARM(text)
- #ifdef NF_INT1_T
- TEST_NF_GET_VARM(int1)
- #endif
- #ifdef NF_INT2_T
- TEST_NF_GET_VARM(int2)
- #endif
- TEST_NF_GET_VARM(int)
- TEST_NF_GET_VARM(real)
- TEST_NF_GET_VARM(double)
- TEST_NF_GET_ATT(text)
- #ifdef NF_INT1_T
- TEST_NF_GET_ATT(int1)
- #endif
- #ifdef NF_INT2_T
- TEST_NF_GET_ATT(int2)
- #endif
- TEST_NF_GET_ATT(int)
- TEST_NF_GET_ATT(real)
- TEST_NF_GET_ATT(double)